论文信息 - A low-cost approach to low-power gas sensors based on self-heating effects in large arrays of nanostructures

A low-cost approach to low-power gas sensors based on self-heating effects in large arrays of nanostructures

The usual operation of a conductometric sensor device requires of an external energy source (i.e. an embedded heater). In the last years, the Joule effect in the sensing material, the so called self-heating effect, offered and alternative method to provide this energy: the probing current (or voltage) applied to measure the sensor signal also serves to heat up the sensor active film. Here, evidences of self-heating effects occurring on large arrays of nanostructures fabricated with low-cost methods are provided. The methodology is proven to be suitable to sense gases (humidity, NH3 and NO2) with low-powered heater-free devices.

Joan Daniel Prades | Olga Casals | O. Monereo | Albert Cirera

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